Source/WebCore/rendering/style/NinePieceImage.h - WebKit - Git at Google

 /*
  * Copyright (C) 2000 Lars Knoll (knoll@kde.org)
  *           (C) 2000 Antti Koivisto (koivisto@kde.org)
  *           (C) 2000 Dirk Mueller (mueller@kde.org)
  * Copyright (C) 2003-2017 Apple Inc. All rights reserved.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  *
  */

 #pragma once

 #include "DataRef.h"
 #include "LengthBox.h"
 #include "StyleImage.h"
 #include <wtf/Vector.h>

 namespace WebCore {

 class LayoutSize;
 class LayoutRect;
 class RenderStyle;

 enum class NinePieceImageRule : uint8_t {
     Stretch,
     Round,
     Space,
     Repeat,
 };

 // Used for array indexing, so not an enum class.
 enum ImagePiece {
     MinPiece = 0,
     TopLeftPiece = MinPiece,
     LeftPiece,
     BottomLeftPiece,
     TopRightPiece,
     RightPiece,
     BottomRightPiece,
     TopPiece,
     BottomPiece,
     MiddlePiece,
     MaxPiece
 };

 inline ImagePiece& operator++(ImagePiece& piece)
 {
     piece = static_cast<ImagePiece>(static_cast<int>(piece) + 1);
     return piece;
 }

 inline bool isCornerPiece(ImagePiece piece)
 {
     return piece == TopLeftPiece || piece == TopRightPiece || piece == BottomLeftPiece || piece == BottomRightPiece;
 }

 inline bool isMiddlePiece(ImagePiece piece)
 {
     return piece == MiddlePiece;
 }

 inline bool isHorizontalPiece(ImagePiece piece)
 {
     return piece == TopPiece || piece == BottomPiece || piece == MiddlePiece;
 }

 inline bool isVerticalPiece(ImagePiece piece)
 {
     return piece == LeftPiece || piece == RightPiece || piece == MiddlePiece;
 }

 inline Optional<PhysicalBoxSide> imagePieceHorizontalSide(ImagePiece piece)
 {
     if (piece == TopLeftPiece || piece == TopPiece || piece == TopRightPiece)
         return PhysicalBoxSide::Top;

     if (piece == BottomLeftPiece || piece == BottomPiece || piece == BottomRightPiece)
         return PhysicalBoxSide::Bottom;

     return WTF::nullopt;
 }

 inline Optional<PhysicalBoxSide> imagePieceVerticalSide(ImagePiece piece)
 {
     if (piece == TopLeftPiece || piece == LeftPiece || piece == BottomLeftPiece)
         return PhysicalBoxSide::Left;

     if (piece == TopRightPiece || piece == RightPiece || piece == BottomRightPiece)
         return PhysicalBoxSide::Right;

     return WTF::nullopt;
 }

 class NinePieceImage {
 public:
     enum class Type {
         Normal,
         Mask
     };

     NinePieceImage(Type = Type::Normal);
     NinePieceImage(RefPtr<StyleImage>&&, LengthBox imageSlices, bool fill, LengthBox borderSlices, LengthBox outset, NinePieceImageRule horizontalRule, NinePieceImageRule verticalRule);

     bool operator==(const NinePieceImage& other) const { return m_data == other.m_data; }
     bool operator!=(const NinePieceImage& other) const { return m_data != other.m_data; }

     bool hasImage() const { return m_data->image; }
     StyleImage* image() const { return m_data->image.get(); }
     void setImage(RefPtr<StyleImage>&& image) { m_data.access().image = WTFMove(image); }

     const LengthBox& imageSlices() const { return m_data->imageSlices; }
     void setImageSlices(LengthBox slices) { m_data.access().imageSlices = WTFMove(slices); }

     bool fill() const { return m_data->fill; }
     void setFill(bool fill) { m_data.access().fill = fill; }

     const LengthBox& borderSlices() const { return m_data->borderSlices; }
     void setBorderSlices(LengthBox slices) { m_data.access().borderSlices = WTFMove(slices); }

     const LengthBox& outset() const { return m_data->outset; }
     void setOutset(LengthBox outset) { m_data.access().outset = WTFMove(outset); }

     NinePieceImageRule horizontalRule() const { return m_data->horizontalRule; }
     void setHorizontalRule(NinePieceImageRule rule) { m_data.access().horizontalRule = rule; }

     NinePieceImageRule verticalRule() const { return m_data->verticalRule; }
     void setVerticalRule(NinePieceImageRule rule) { m_data.access().verticalRule = rule; }

     void copyImageSlicesFrom(const NinePieceImage& other)
     {
         m_data.access().imageSlices = other.m_data->imageSlices;
         m_data.access().fill = other.m_data->fill;
     }

     void copyBorderSlicesFrom(const NinePieceImage& other)
     {
         m_data.access().borderSlices = other.m_data->borderSlices;
     }

     void copyOutsetFrom(const NinePieceImage& other)
     {
         m_data.access().outset = other.m_data->outset;
     }

     void copyRepeatFrom(const NinePieceImage& other)
     {
         m_data.access().horizontalRule = other.m_data->horizontalRule;
         m_data.access().verticalRule = other.m_data->verticalRule;
     }

     static LayoutUnit computeOutset(const Length& outsetSide, LayoutUnit borderSide)
     {
         if (outsetSide.isRelative())
             return LayoutUnit(outsetSide.value() * borderSide);
         return LayoutUnit(outsetSide.value());
     }

     static LayoutUnit computeSlice(Length, LayoutUnit width, LayoutUnit slice, LayoutUnit extent);
     static LayoutBoxExtent computeSlices(const LayoutSize&, const LengthBox& lengths, int scaleFactor);
     static LayoutBoxExtent computeSlices(const LayoutSize&, const LengthBox& lengths, const FloatBoxExtent& widths, const LayoutBoxExtent& slices);

     static bool isEmptyPieceRect(ImagePiece, const LayoutBoxExtent& slices);
     static bool isEmptyPieceRect(ImagePiece, const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects);

     static Vector<FloatRect> computeNineRects(const FloatRect& outer, const LayoutBoxExtent& slices, float deviceScaleFactor);

     static void scaleSlicesIfNeeded(const LayoutSize&, LayoutBoxExtent& slices, float deviceScaleFactor);

     static FloatSize computeSideTileScale(ImagePiece, const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects);
     static FloatSize computeMiddleTileScale(const Vector<FloatSize>& scales, const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects, NinePieceImageRule hRule, NinePieceImageRule vRule);
     static Vector<FloatSize> computeTileScales(const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects, NinePieceImageRule hRule, NinePieceImageRule vRule);

     void paint(GraphicsContext&, RenderElement*, const RenderStyle&, const LayoutRect& destination, const LayoutSize& source, float deviceScaleFactor, CompositeOperator) const;

 private:
     struct Data : RefCounted<Data> {
         static Ref<Data> create();
         static Ref<Data> create(RefPtr<StyleImage>&&, LengthBox imageSlices, bool fill, LengthBox borderSlices, LengthBox outset, NinePieceImageRule horizontalRule, NinePieceImageRule verticalRule);
         Ref<Data> copy() const;

         bool operator==(const Data&) const;
         bool operator!=(const Data& other) const { return !(*this == other); }

         bool fill { false };
         NinePieceImageRule horizontalRule { NinePieceImageRule::Stretch };
         NinePieceImageRule verticalRule { NinePieceImageRule::Stretch };
         RefPtr<StyleImage> image;
         LengthBox imageSlices { { 100, Percent }, { 100, Percent }, { 100, Percent }, { 100, Percent } };
         LengthBox borderSlices { { 1, Relative }, { 1, Relative }, { 1, Relative }, { 1, Relative } };
         LengthBox outset { 0 };

     private:
         Data();
         Data(RefPtr<StyleImage>&&, LengthBox imageSlices, bool fill, LengthBox borderSlices, LengthBox outset, NinePieceImageRule horizontalRule, NinePieceImageRule verticalRule);
         Data(const Data&);
     };

     static DataRef<Data>& defaultData();
     static DataRef<Data>& defaultMaskData();

     DataRef<Data> m_data;
 };

 WTF::TextStream& operator<<(WTF::TextStream&, const NinePieceImage&);

 } // namespace WebCore
	/*
	* Copyright (C) 2000 Lars Knoll (knoll@kde.org)
	* (C) 2000 Antti Koivisto (koivisto@kde.org)
	* (C) 2000 Dirk Mueller (mueller@kde.org)
	* Copyright (C) 2003-2017 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#pragma once

	#include "DataRef.h"
	#include "LengthBox.h"
	#include "StyleImage.h"
	#include <wtf/Vector.h>

	namespace WebCore {

	class LayoutSize;
	class LayoutRect;
	class RenderStyle;

	enum class NinePieceImageRule : uint8_t {
	Stretch,
	Round,
	Space,
	Repeat,
	};

	// Used for array indexing, so not an enum class.
	enum ImagePiece {
	MinPiece = 0,
	TopLeftPiece = MinPiece,
	LeftPiece,
	BottomLeftPiece,
	TopRightPiece,
	RightPiece,
	BottomRightPiece,
	TopPiece,
	BottomPiece,
	MiddlePiece,
	MaxPiece
	};

	inline ImagePiece& operator++(ImagePiece& piece)
	{
	piece = static_cast<ImagePiece>(static_cast<int>(piece) + 1);
	return piece;
	}

	inline bool isCornerPiece(ImagePiece piece)
	{
	return piece == TopLeftPiece \|\| piece == TopRightPiece \|\| piece == BottomLeftPiece \|\| piece == BottomRightPiece;
	}

	inline bool isMiddlePiece(ImagePiece piece)
	{
	return piece == MiddlePiece;
	}

	inline bool isHorizontalPiece(ImagePiece piece)
	{
	return piece == TopPiece \|\| piece == BottomPiece \|\| piece == MiddlePiece;
	}

	inline bool isVerticalPiece(ImagePiece piece)
	{
	return piece == LeftPiece \|\| piece == RightPiece \|\| piece == MiddlePiece;
	}

	inline Optional<PhysicalBoxSide> imagePieceHorizontalSide(ImagePiece piece)
	{
	if (piece == TopLeftPiece \|\| piece == TopPiece \|\| piece == TopRightPiece)
	return PhysicalBoxSide::Top;

	if (piece == BottomLeftPiece \|\| piece == BottomPiece \|\| piece == BottomRightPiece)
	return PhysicalBoxSide::Bottom;

	return WTF::nullopt;
	}

	inline Optional<PhysicalBoxSide> imagePieceVerticalSide(ImagePiece piece)
	{
	if (piece == TopLeftPiece \|\| piece == LeftPiece \|\| piece == BottomLeftPiece)
	return PhysicalBoxSide::Left;

	if (piece == TopRightPiece \|\| piece == RightPiece \|\| piece == BottomRightPiece)
	return PhysicalBoxSide::Right;

	return WTF::nullopt;
	}

	class NinePieceImage {
	public:
	enum class Type {
	Normal,
	Mask
	};

	NinePieceImage(Type = Type::Normal);
	NinePieceImage(RefPtr<StyleImage>&&, LengthBox imageSlices, bool fill, LengthBox borderSlices, LengthBox outset, NinePieceImageRule horizontalRule, NinePieceImageRule verticalRule);

	bool operator==(const NinePieceImage& other) const { return m_data == other.m_data; }
	bool operator!=(const NinePieceImage& other) const { return m_data != other.m_data; }

	bool hasImage() const { return m_data->image; }
	StyleImage* image() const { return m_data->image.get(); }
	void setImage(RefPtr<StyleImage>&& image) { m_data.access().image = WTFMove(image); }

	const LengthBox& imageSlices() const { return m_data->imageSlices; }
	void setImageSlices(LengthBox slices) { m_data.access().imageSlices = WTFMove(slices); }

	bool fill() const { return m_data->fill; }
	void setFill(bool fill) { m_data.access().fill = fill; }

	const LengthBox& borderSlices() const { return m_data->borderSlices; }
	void setBorderSlices(LengthBox slices) { m_data.access().borderSlices = WTFMove(slices); }

	const LengthBox& outset() const { return m_data->outset; }
	void setOutset(LengthBox outset) { m_data.access().outset = WTFMove(outset); }

	NinePieceImageRule horizontalRule() const { return m_data->horizontalRule; }
	void setHorizontalRule(NinePieceImageRule rule) { m_data.access().horizontalRule = rule; }

	NinePieceImageRule verticalRule() const { return m_data->verticalRule; }
	void setVerticalRule(NinePieceImageRule rule) { m_data.access().verticalRule = rule; }

	void copyImageSlicesFrom(const NinePieceImage& other)
	{
	m_data.access().imageSlices = other.m_data->imageSlices;
	m_data.access().fill = other.m_data->fill;
	}

	void copyBorderSlicesFrom(const NinePieceImage& other)
	{
	m_data.access().borderSlices = other.m_data->borderSlices;
	}

	void copyOutsetFrom(const NinePieceImage& other)
	{
	m_data.access().outset = other.m_data->outset;
	}

	void copyRepeatFrom(const NinePieceImage& other)
	{
	m_data.access().horizontalRule = other.m_data->horizontalRule;
	m_data.access().verticalRule = other.m_data->verticalRule;
	}

	static LayoutUnit computeOutset(const Length& outsetSide, LayoutUnit borderSide)
	{
	if (outsetSide.isRelative())
	return LayoutUnit(outsetSide.value() * borderSide);
	return LayoutUnit(outsetSide.value());
	}

	static LayoutUnit computeSlice(Length, LayoutUnit width, LayoutUnit slice, LayoutUnit extent);
	static LayoutBoxExtent computeSlices(const LayoutSize&, const LengthBox& lengths, int scaleFactor);
	static LayoutBoxExtent computeSlices(const LayoutSize&, const LengthBox& lengths, const FloatBoxExtent& widths, const LayoutBoxExtent& slices);

	static bool isEmptyPieceRect(ImagePiece, const LayoutBoxExtent& slices);
	static bool isEmptyPieceRect(ImagePiece, const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects);

	static Vector<FloatRect> computeNineRects(const FloatRect& outer, const LayoutBoxExtent& slices, float deviceScaleFactor);

	static void scaleSlicesIfNeeded(const LayoutSize&, LayoutBoxExtent& slices, float deviceScaleFactor);

	static FloatSize computeSideTileScale(ImagePiece, const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects);
	static FloatSize computeMiddleTileScale(const Vector<FloatSize>& scales, const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects, NinePieceImageRule hRule, NinePieceImageRule vRule);
	static Vector<FloatSize> computeTileScales(const Vector<FloatRect>& destinationRects, const Vector<FloatRect>& sourceRects, NinePieceImageRule hRule, NinePieceImageRule vRule);

	void paint(GraphicsContext&, RenderElement*, const RenderStyle&, const LayoutRect& destination, const LayoutSize& source, float deviceScaleFactor, CompositeOperator) const;

	private:
	struct Data : RefCounted<Data> {
	static Ref<Data> create();
	static Ref<Data> create(RefPtr<StyleImage>&&, LengthBox imageSlices, bool fill, LengthBox borderSlices, LengthBox outset, NinePieceImageRule horizontalRule, NinePieceImageRule verticalRule);
	Ref<Data> copy() const;

	bool operator==(const Data&) const;
	bool operator!=(const Data& other) const { return !(*this == other); }

	bool fill { false };
	NinePieceImageRule horizontalRule { NinePieceImageRule::Stretch };
	NinePieceImageRule verticalRule { NinePieceImageRule::Stretch };
	RefPtr<StyleImage> image;
	LengthBox imageSlices { { 100, Percent }, { 100, Percent }, { 100, Percent }, { 100, Percent } };
	LengthBox borderSlices { { 1, Relative }, { 1, Relative }, { 1, Relative }, { 1, Relative } };
	LengthBox outset { 0 };

	private:
	Data();
	Data(RefPtr<StyleImage>&&, LengthBox imageSlices, bool fill, LengthBox borderSlices, LengthBox outset, NinePieceImageRule horizontalRule, NinePieceImageRule verticalRule);
	Data(const Data&);
	};

	static DataRef<Data>& defaultData();
	static DataRef<Data>& defaultMaskData();

	DataRef<Data> m_data;
	};

	WTF::TextStream& operator<<(WTF::TextStream&, const NinePieceImage&);

	} // namespace WebCore